Table Of Contents
Managing System Hardware
Displaying Switch Hardware Inventory
Displaying the Switch Serial Number
Displaying Power Usage Information
Configuring Power Supplies
Power Supply Guidelines
Displaying Module Temperature
Monitoring Fan Modules
Monitoring Clock Modules
Displaying Environment Information
Managing System Hardware
This chapter provides details on monitoring the health of the switch. It includes the following sections:
•Displaying Switch Hardware Inventory
•Displaying Power Usage Information
•Displaying Power Usage Information
•Configuring Power Supplies
•Displaying Module Temperature
•Monitoring Fan Modules
•Monitoring Clock Modules
•Displaying Environment Information
Displaying Switch Hardware Inventory
Use the show hardware command to display switch hardware inventory details. See Example 7-1.
Note To display and configure modules, see "Managing Modules."
Example 7-1 Displays the Hardware Information
Cisco Storage Area Networking Operating System (SAN-OS) Software
TAC support: http://www.cisco.com/tac
Copyright (c) 2002-2003 by Cisco Systems, Inc. All rights reserved.
The copyright for certain works contained herein are owned by
Andiamo Systems, Inc. and/or other third parties and are used and
distributed under license.
loader: version error [last 1.0(1)]
kickstart: version 1.1(1) [build 1.1(0.94)] [gdb]
system: version 1.1(1) [build 1.1(0.94)] [gdb]
BIOS compile time: 11/18/02
kickstart image file is: bootflash:/bootimage
kickstart compile time: 2/12/2003 11:00:00
system image file is: isanimage
system compile time: 2/12/2003 12:00:00
bootflash: 1000944 blocks (block size 512b)
slot0: 0 blocks (block size 512b)
172.22.90.171 uptime is 0 days 3 hours 0 minute(s) 36 second(s)
Last reset at 669882 usecs after Thu Feb 13 07:20:41 2003
Reason: Reset Requested by CLI command reload
This supervisor carries Pentium processor with 1027628 kB of memory
Intel(R) Pentium(R) III CPU at family with 512 KB L2 Cache
Rev: Family 6, Model 11 stepping 1
512K bytes of non-volatile memory.
1000944 blocks of internal bootflash (block size 512b)
--------------------------------
Chassis has 9 slots for Modules
--------------------------------
Module in slot 1 is empty
Module in slot 2 is empty
Module type is "1/2 Gbps FC Module"
Part Number is 73-8127-03
Manufacture Date is Year 0 Week 0
Module in slot 4 is empty
Module type is "Supervisor/Fabric-1"
No submodules are present
Model number is DS-X9530-SF1-K9
Part Number is 73-7523-06
Manufacture Date is Year 0 Week 0
Module in slot 6 is empty
Module in slot 7 is empty
Module type is "IP Storage Module"
Model number is DS-X9308-SMIP
Part Number is 73-8083-02
Manufacture Date is Year 7 Week 2
Serial number is JAB0702065h
Module type is "1/2 Gbps FC Module"
Part Number is 73-8127-03
Manufacture Date is Year 0 Week 0
---------------------------------------
Chassis has 2 Slots for Power Supplies
---------------------------------------
Power supply type is "1153.32W 110v AC"
Model number is DS-CAC-2500W
Part Number is 341-0061-01
Manufacture Date is Year 6 Week 16
Serial number is ART061600VA
Power supply type is "1153.32W 110v AC"
Model number is WS-CAC-2500W
Part Number is 34-1535-01
Manufacture Date is Year 6 Week 20
Serial number is ART0620005N
----------------------------------
Chassis has one slot for Fan Module
----------------------------------
Model number is WS-9SLOT-FAN
Part Number is 800-22342-01
Manufacture Date is Year 0 Week 0
Displaying the Switch Serial Number
The serial number of your Cisco MDS 9000 Family switch can be obtained by looking at the serial number label on the back of the switch (next to the power supply), or by executing the operating system show sprom backplane 1 command.
switch# show sprom backplane 1
DISPLAY backplane sprom contents:
OEM String : Cisco Systems, Inc.
Product Number : DS-C9506
Serial Number : FOX0712S007
snmpOID : 9.12.3.1.4.26.0.0
Displaying Power Usage Information
Use the show environment power command to display the actual power usage information for the entire switch. In response to this command, power supply capacity and consumption information is displayed for each module. See Example 7-2.
Note In a Cisco MDS 9500 Series switch, power usage is reserved for both supervisors regardless of whether one or both supervisor modules are present.
Example 7-2 Displays Power Management Information
switch# show environment power
-----------------------------------------------------
PS Model Power Power Status
-----------------------------------------------------
1 DS-CAC-2500W 1153.32 27.46 ok
2 WS-CAC-2500W 1153.32 27.46 ok
Mod Model Power Power Power Power Status
Requested Requested Allocated Allocated
(Watts) (Amp @42V) (Watts) (Amp @42V)
--- ------------------- ------- ---------- --------- ---------- ----------
1 DS-X9032 199.92 4.76 199.92 4.76 powered-up
4 DS-X9032 199.92 4.76 199.92 4.76 powered-up
5 DS-X9530-SF1-K9 126.00 3.00 126.00 3.00 powered-up
6 DS-X9530-SF1-K9 126.00 3.00 126.00 3.00 powered-up
9 DS-X9016 220.08 5.24 220.08 5.24 powered-up
Power Supply redundancy mode: redundant
Total Power Capacity 1153.32 W
Power reserved for Supervisor(s)[-] 252.00 W
Power reserved for Fan Module(s) [-] 0.00 W
Power currently used by Modules[-] 619.92 W
Total Power Available 281.40 W
Configuring Power Supplies
Switches in the MDS 9000 Family have two redundant power supply slots. The power supplies can be configured in either redundant or combined mode.
•redundant—Uses the capacity of one power supply only. This is the default mode. In case of power supply failure, the entire switch has sufficient power available in the system.
•combined—Uses the combined capacity of both power supplies. In case of power supply failure, the entire switch can be shut down (depends on the power used) causing traffic disruption. This mode is seldom used, except in cases where the switch has two low power supply capacities but a higher power usage.
Note The chassis in the Cisco MDS 9000 Family uses 1200Watts when powered at 110 volts, and 2500Watts when powered at 220 volts.
To configure the power supply mode, follow these steps:
|
Command
|
Purpose
|
Step 1
|
|
Enters configuration mode.
|
Step 2
|
switch(config)# power redundancy-mode combined
|
Configures combined power supply mode.
|
switch(config)# power redundancy-mode redundant
|
Reverts to the redundant (default) power supply mode.
|
Power Supply Guidelines
Note Use the show environment power command to view the current power supply configuration.
Follow these guidelines when configuring power supplies:
1. When power supplies with different capacities are installed in the switch, the total power available differs based on the configured mode:
•In redundant mode, the total power is the lesser of the two power supply capacities.
For example, if you have the following usage figures configured:
Power supply 1 = 2500Watts
Additional Power supply 2 = not used
Current usage = 2000Watts
Current capacity = 2500Watts
Then the following three scenarios differ as specified (see Table 7-1):
a. Scenario 1: If 1800Watts is added as power supply 2, then power supply 2 is shut down.
Reason: 1800Watts is less than the usage of 2000Watts.
b. Scenario 2: If 2200Watts is added as power supply 2, then the current capacity decreases to 2200Watts.
Reason: 2200Watts is the lesser of the two power supplies.
c. Scenario 3: If 3000Watts is added as power supply 2, then the current capacity value remains at 2500Watts.
Reason: 2500Watts is the lesser of the two power supplies.
Table 7-1 Redundant Mode Power Supply Scenarios
Scenario
|
|
Current Usage (W)
|
Insertion of Power Supply 2 (W)
|
New Capacity (W)
|
Action Taken by Switch
|
1
|
2500
|
2000
|
1800
|
2500
|
Power supply 2 is shut down.
|
2
|
2500
|
2000
|
2200
|
2200
|
Capacity becomes 2200Watts.
|
3
|
2500
|
2000
|
3300
|
2500
|
Capacity remains the same.
|
•In combined mode, the total power is twice the lesser of the two power supply capacities.
For example, if you have the following usage figures configured:
Power supply 1 = 2500Watts
Additional Power supply 2 = not used
Current Usage = 2000Watts
Current capacity = 2500Watts
Then, the following three scenarios differ as specified (see Table 7-2):
a. Scenario 1: If 1800Watts is added as power supply 2, then the capacity increases to 3600Watts.
Reason: 3600Watts is twice the minimum (1800Watts).
b. Scenario 2: If 2200Watts is added as power supply 2, then the current capacity increases to 4400Watts.
Reason:4400Watts is twice the minimum (2200Watts).
c. Scenario 3: If 3000Watts is added as power supply 2, then the current capacity increases to 5000Watts.
Reason: 5000Watts is twice the minimum (2500Watts).
Table 7-2 Combined Mode Power Supply Scenarios
Scenario
|
|
Current Usage (W)
|
Insertion of Power Supply 2 (W)
|
New Capacity (W)
|
Action Taken by Switch
|
1
|
2500
|
2000
|
1800
|
3600
|
Power is never shut down. The new capacity is changed.
|
2
|
2500
|
2000
|
2200
|
4400
|
3
|
2500
|
2000
|
3300
|
5000
|
2. When you change the configuration from combined to redundant mode and the system detects a power supply that has a capacity lower than the current usage, the power supply is shut down. If both power supplies have a lower capacity than the current system usage, the configuration is not allowed. Various configuration scenarios are displayed and summarized in Table 7-3.
a. Scenario 1: You have the following usage figures configured:
Power supply 1 = 2500Watts
Additional Power supply 2 = 1800Watts
Current Usage = 2000Watts
Current mode = combined mode (so current capacity is 3600Watts)
You decide to change the switch to redundant mode. Then power supply 2 is shut down.
Reason: 1800Watts is the lesser of the two power supplies and it is less than the system usage.
b. Scenario 2: You have the following usage figures configured:
Power supply 1 = 2500Watts
Additional Power supply 2 = 2200Watts
Current Usage = 2000Watts
Current mode = combined mode (so current capacity is 4400Watts).
You decide to change the switch to redundant mode. Then the current capacity decreases to 2200Watts.
Reason: 2200Watts is the lesser of the two power supplies.
c. Scenario 3: You have the following usage figures configured:
Power supply 1 = 2500Watts
Additional Power supply 2 = 1800Watts
Current Usage = 3000Watts
Current mode = combined mode (so current capacity is 3600Watts).
You decide to change the switch to redundant mode. Then the current capacity decreases to 2500Watts and the configuration is rejected.
Reason: 2500Watts is less than the system usage (3000Watts).
Table 7-3 Combined Mode Power Supply Scenarios
Scenario
|
|
Current Mode
|
Current Usage (W)
|
Power Supply 2 (W)
|
New Mode
|
New Capacity (W)
|
Action Taken by Switch
|
1
|
2500
|
combined
|
2000
|
1800
|
N/A
|
3600
|
Existing configuration.
|
2500
|
N/A
|
2000
|
1800
|
redundant
|
2500
|
Power supply 2 is shut down
|
2
|
2500
|
combined
|
2000
|
2200
|
N/A
|
4400
|
Existing configuration.
|
2500
|
N/A
|
2000
|
2200
|
redundant
|
2200
|
The new capacity is changed.
|
3
|
2500
|
combined
|
3000
|
1800
|
N/A
|
3600
|
Existing configuration.
|
2500
|
N/A
|
3000
|
1800
|
redundant
|
N/A
|
Rejected, so the mode reverts to combined mode.
|
Displaying Module Temperature
Use the show environment temperature command to display temperature sensors for each module (see Example 7-3).
Each module (switching and supervisor) has four sensors: 1 (outlet sensor), 2 (intake sensor), 3 (onboard sensor), and 4 (onboard sensor). Each sensor has two thresholds (in Celsius): minor and major.
Note A threshold value of -127 indicates that no thresholds are configured or applicable.
•minor threshold—When a minor threshold is exceeded, a minor alarm occurs and the following action is taken for all four sensors:
–Syslog messages are displayed.
–Call Home alerts are sent (if configured).
–SNMP notifications are sent (if configured).
•major threshold—When a major threshold is exceeded, a major alarm occurs and the following action is taken as follows:
–For sensors 1, 3, and 4 (outlet and onboard sensors):
Syslog messages are displayed.
Call Home alerts are sent (if configured).
SNMP notifications are sent (if configured).
–For sensor 2 (intake sensor):
If the threshold is exceeded in a switching module, the module is shut down.
If the threshold is exceeded in a supervisor module with HA-standby or standby present, the supervisor module is shut down.
If the standby supervisor is not present, the entire switch is shut down.
Note Switch shut down only happens after a two-minute interval. During this interval the software monitors the temperature every five (5) seconds and continuously sends syslog messages as configured. If the required action is not taken (for example, a new fan module is inserted to decrease temperature) and if the temperature does not come down, the system is shut down at the end of two minutes.
Example 7-3 Displays Temperature Information
switch# show environment temperature
---------------------------------------------------------------
Module Sensor MajorThresh MinorThres CurTemp Status
(Celsius) (Celsius) (Celsius)
---------------------------------------------------------------
Monitoring Fan Modules
Use the show environment fan command to display the fan status for each fan module. See Example 7-4.
Example 7-4 Displays Chassis Fan Information
switch# show environment fan
------------------------------------------------------
------------------------------------------------------
Chassis WS-9SLOT-FAN 0.0 ok
The fan status is continuously monitored. In case of a fan module failure, the following action is taken:
•Syslog messages are displayed.
•Call Home alerts are sent (if configured).
•SNMP notifications are sent (if configured).
Caution A fan failure could lead to temperature alarms if not corrected immediately.
When a fan module is removed, the Fan module removed message is displayed every 10 seconds for three minutes after the fan removal. After the three-minute interval, a system shutdown message is displayed every 5 seconds for two additional minutes. At the end of this 5-minute sequence, the system is shutdown. If the fan module is re-inserted at any point within this 5-minute period, the remaining sequence is stopped.
Monitoring Clock Modules
Use the show environment clock command to display the clock status for the chassis. See Example 7-5.
Example 7-5 Displays Chassis Clock Information
switch# show environment clock
----------------------------------------------------------
----------------------------------------------------------
A DS-C9500-CL 0.0 ok/active
B DS-C9500-CL 0.0 ok/standby
Each switch has two clock modules for redundancy: Clock A (primary) and Clock B. The redundant clock module (Clock B) takes over if the primary clock module fails. If Clock A is available at startup, the switch uses Clock A, otherwise it uses Clock B.
If Clock A fails, the switch is reset and Clock B automatically takes over. Clock modules cannot be configured. If both modules fail, the switch shuts down. The probability of a clock failure is low given that the mean time between failures (MTBF) is 3660316 hours.
Displaying Environment Information
Use the show environment command to display all environment-related switch information.
Example 7-6 Displays All Environment Information
----------------------------------------------------------
----------------------------------------------------------
A Clock Module 1.0 ok/active
B Clock Module 1.0 ok/standby
------------------------------------------------------
------------------------------------------------------
Chassis DS-2SLOT-FAN 0.0 ok
---------------------------------------------------------------
Module Sensor MajorThresh MinorThres CurTemp Status
(Celsius) (Celsius) (Celsius)
---------------------------------------------------------------
-----------------------------------------------------
PS Model Power Power Status
-----------------------------------------------------
1 PWR-950-AC 919.38 21.89 ok
Mod Model Power Power Power Power Status
Requested Requested Allocated Allocated
(Watts) (Amp @42V) (Watts) (Amp @42V)
--- ------------------- ------- ---------- --------- ---------- ----------
1 DS-X9216-K9-SUP 220.08 5.24 220.08 5.24 powered-up
Power Supply redundancy mode: redundant
Total Power Capacity 919.38 W
Power reserved for Supervisor(s)[-] 220.08 W
Power reserved for Fan Module(s)[-] 0.00 W
Power currently used by Modules[-] 0.00 W
Total Power Available 699.30 W